Hilbert polynomial.html

In commutative algebra, the Hilbert polynomial of a graded commutative algebra or graded module is a polynomial in one variable that measures the rate of growth of the dimensions of its homogeneous components. The degree and the leading coefficient of the Hilbert polynomial of a graded commutative algebra S are related with the dimension and the degree of the projective algebraic variety Proj S.

Definition

The Hilbert polynomial of a graded commutative algebra

S = ⊕S_n

over a field K that is generated by the finite dimensional space S₁ is the unique polynomial H_S(t) with rational coefficients such that

H_S(n) = dim_k S_n

for all but finitely many positive integers n. In other words, the term 'Hilbert polynomial' refers to the Hilbert function, in those cases where the function's values are given by a polynomial for all but finitely many natural n.

The Hilbert polynomial is a numerical polynomial, since the dimensions are integers, but the polynomial does not necessarily have integer coefficients (Schenck 2003, pp. 41).

Similarly, one can define the Hilbert polynomial H_M of a finitely generated graded module M, at least, when the grading is positive.

The Hilbert polynomial of a projective variety V in Pⁿ is defined as the Hilbert polynomial of the homogeneous coordinate ring of V.

Examples

The Hilbert polynomial of the polynomial ring in k+1 variables, S = Kx₀, x₁,…x_k, where each x_i is homogeneous of degree 1, is the binomial coefficient

$H_S(t) = {{t+k}\choose{k}} = \frac{(t+1)\ldots(t+k)}{k!}.$

If M is a finite-dimensional graded module then all its homogeneous components of sufficiently high degree are zero, therefore, the Hilbert polynomial of M is identically zero.

References

Eisenbud, David (1995), Commutative algebra. With a view toward algebraic geometry, Graduate Texts in Mathematics, 150, New York: Springer-Verlag, MR 1322960, ISBN 0-387-94268-8 .
Schenck, Hal (2003), Computational Algebraic Geometry, Cambridge: Cambridge University Press, MR 011360, ISBN 978-0-521-53650-9
Stanley, Richard (1978), "Hilbert functions of graded algebras", Advances in Math. 28 (1): 57–83, MR 0485835 .

szanuj zdrowie swoje • Najlepsze naglosnienie tanie • Najlepsze chlodzenie tanie • Szybki motor zachodni • dieta wspomaganie trening • dobrye gry planszowe • dobra apteka lecznicza • Very very interesting site • Polityka • Polityka • Polityka • Polityka • Polityka • Kodeki i filtry • Parki